Time clock controlled automatic mechanism



July 18, 1939. J. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIC MECHANISM 8 Sheets-Sheet 1 Filed June '7, 1937 .ZZZ. 5.

KNIT "1W .IIIIIIN INVENTOR. /0///V 1% 6 64 75'0/1 BY M j? W M ATTORNEY.

July 18, 1939. .1. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June 7, 1957 8 Sheets-Sheet 2 Fla. 4.

INVENTOR. Jaw 4. 6164/5? ATTORNEY.

July 18, 1939. j GRAYSON 2,156,683

TIME; CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June '7, 1937 8 Sheets-Sheet 3 ATTORNEY.

July 18, 1939. J. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June '7, 193'? 8 Sheets-Sheet 4 INVENTOR. dfl/m A4 6,6050% BY W 9 064 ATTORNEY.

July 18, 1939. J. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June '7, 1937 8 Sheets-Sheet 5 INVENTOR.

Ja /m4 63647504 BY it. 2-

ATTORNEY.

y 1939- J. H. GRAYSON 2,166,683

TIME CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June 7, 1937 s Sheets-Sheet 6 169 107 .Fflf:

ATTORNEY.

July 18, 1939.

J. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIGIMECHANISM Filed June 7, 1937 IN VENTOR.

ATTORNEY.

July 18, 1939. J. H. GRAYSON TIME CLOCK CONTROLLED AUTOMATIC MECHANISM Filed June '7, 193'? 8 Sheets-Sheet 8 ATTORNEY.

Patented July 18, 1939 TIME CLOCK CONTROLLED AUTOMATIC MECHANISM John H. Grayson, Lynwood, Calif.

Application June 7, 1937, Serial No. 146,705

4 Claims.

This invention relates to mechanisms for automatically performing desired functions for a wide variety of purposes at predetermined times and is particularly useful for turning on and of! the fuel or power supply of domestic electric or gas ranges or the like.

The main objects of this invention are to provide a time clock controlled automatic mechanism adapted to perform a certain function immediately or at a predetermined time in the future and to perform a second function in predetermined time-spaced relationship to the first performed function; to provide a mechanism of this character which is adapted to control either the flow of a fluid such as gas or the flow of electric current with equal facility; to provide a mechanism of this character in which the function controlling elements are standardized and in which either an electric switch or a gas valve may be installed with a minimum amount of change for the accommodation ofeither; to provide a time-clock mechanism which can be manually set by the operator to perform future operations automatically without mathematical calculations, thereby eliminating errors of calculation; to provide a fuel or power controlling time-clock mechanism which at all times visually indicates, directly the time at which fuel or power will begin to be supplied, the length of time for which it will be supplied, and the time at which its supply will be discontinued; to provide a device of this character which is dependable and of sturdy construction, simple as to its mechanical parts, some of which are duplicates, and well adapted for mass production whereby the cost will be exceptionally low; to provide a device of this character which may be readily assembled in quantity production and to provide a mechanism of this character which is extremely compact in design.

An illustrative embodiment of this invention is shown' in the accompanying drawings, in

which Fig. '1 is a face view of the improved timeclock in full size.

Fig. 2 is an enlarged view of some of the trains of clock gears and particularly the manual setting train for determining the "0115 time.

Fig. 3 is an enlarged sectional view taken on the line 3-3 of Fig. 2, showing the friction drag or brake which 'holds the gears in the desired set position.

Fig. 4 is an enlarged view of the train of gears by which the on" position of the mechanism is manually set; the gear reduction of the timeclock and the train of gears for hand-setting the time-clock.

(Cl. l61-1) or brake which holds the "on gears in the desired set position.

Fig; 6 is an enlarged plan view of the to 1 reduction gears between the second-hand and the minute-hand drive.

Fig. 7 is an enlarged transverse, vertical, sectional view taken on the line l-l on Fig. 1, looking in the direction indicated by the arrows.

Fig. 8 is a sectional view taken on the line 8-8 of Fig. 7, looking in the direction indicated by the arrows and showing part of the operating mechanism in elevation but with the electric switch removed for purposes of clarity.

Fig. 9 is a fragmentary view in elevation of one end of the U-shaped strap to which the outer casing is attached, engaged under the frame plate.

Fig. 10 is a view partly in section and partly in elevation taken generally along the line i0|0 of Fig. 8, with the operating mechanism set in position to turn "on the fuel or power.

Fig. 11 is a fragmentary view, partly in section and partly in elevation, illustrating the hinged mounting of the function performing lever arm.

Fig. 12 is a fragmentary plan view of the base or hinged end of the lever arm shown in section in Fig. 1.

Fig. 13 is a fragmentary view in elevation with portions broken away and with the mechanical elements in substantially the same positions as shown in'Fig. 10.

Fig. 14 is an enlarged fragmentary view, partly in section and partly in elevation and similar to Fig. 10, but with the mechanical elements move to the on" position.

Fig. 15 is a fragmentary view of the same with parts broken away to show the relative positions of the actuating and locking pawls.

Fig. 16 is a view similar to Figs. 10 and 14, but with the actuating pawl withdrawn and the mechanism held in on position by the locking pawls and pawl spreader in the positions illustrated in Fig. 17.

Fig. 19 is an enlarged longitudinal, medial, sectional view of an electric switch which is operated by the improved time-clock mechanism.

Fig. 20 is an enlarged fragmentary view of the improved clock with portions of the casing broken away to show the switch illustrated in Fig. 19 in mounted position within the clock case.

Fig. 21 is an enlarged fragmentary view in elevation of a fluid control valve mounted in the improved clock and adapted to be operated by the clock mechanism.

Fig. 22 is a view, partly in section and partly in elevation, taken on the line 22-22 of Fig. 21 showing the general construction of a substantially frictionless, sealed control valve for a fluid such as gas.

Fig. 23 is an enlarged view of the stud upon which the actuating pawl is mounted.

Heretofore in the operation of timing mechanisms for turning electric and gas ranges on and off, it has been necessary for the person operating the stove to do some mental calculation in order to determine the time for setting the on" control. For instance, if it is desired to have the meal cooked and finished at 6 o'clock and it is desired to have the cooking extended for a period of 2 hours then the person operating the stove would mentally calculate that two hours from six would leave four hours and set the stove to turn on at four o'clock. In the event, however, it is desired to have the meal finished cooking at 6:15

oven should turn on.

In the present invention it is unnecessary for the person o erating the stove to do any of the foregoing cal ula ion. In this im roved clock, the time at which the meal is to be finished is set-offdireetly by one m nual control knob operating a rota able d sk wh ch carries an indicator fin er or pointer and which is rotated in the direction ndicated by an arrow to the desired prqdetermined time. The number of hours which it is desir d. to cook t e meal is then set-ofl directly by anoth r con rol knob and that setting will ut matically p sition the mechanism to turn the fu l on at the co rect time. The arrangement is such that the "On" control knob w ll rotatean indicator or p inter to not only directly show the num er of co k n hours but also. by mnn 111 line of s ht along the pointer will i dicate at w t hour t e cooki will .be started. In other w rds th s m roved timing mechanism is d i d d arranged to be also an automatic im ealepla or.

In the mns mc inn shown in the drawings. the ir firnv d t m lo k e mn ise a pair of sub tantjgfjlv irouar frame plates 25 and 26 held in spaced. pa ll l r l tion hip by a plural ty of m 's mstuds 21 wh ch are spaced about the pewin'hefg] mo e: of the lates. post; or stu 2'! is r veted to the plate 28 and the other end th reof is reduced in diameter to pass throu h ape tures in plate 25 and protrude therebeyond. Such protruding ends are threaded to receive nuts 28 wh ch clamp the plate 25 against the shoulders formed by such reduction in diam-' secured thereto and which are drilled nd t pp One end of each.

to receive screws by which the unit is mounted for service. 1

The cup-shaped casing 29 is secured to the plate 25 so as to cover and surround the mechanism hereafter described by a pair of screws 30 one of which is shown in Fig. '7, which pass through the back of the casing and thread into the base ofa U-shaped bracket 3!. The ends of the legs of the bracket II are of like construction and are provided with aligned oppositely extending notches 32 and 33, as shown in Fig. 9, formed in opposite side edges to provide shoulders 34 and 35 respectively. The shoulders 3| and 35 form a head which is adapted to engage underneath the plate 25, when the legs of the bracket are sprung apart so that the necks formed by the notches 32 and 33 pass into notches 36 and 31 formed at diametrically opposite places in the frame plate 25 as shown most clearly in Figs. 8 and 9.

20 The frame plate 26, at the front of the clock, is

provided with a relatively thin sheet 38 forming a clock face upon which is carried the appropriate indicia for des gnating twelve hours with appropriate subdivisions thereof and over which travel the hands of the time clock in the usual and customary manner. The clock face is covered by a convex glass 39 held in place'by a substantially annular ring or bezel III which overlaps and embraces the perlpheral marginal edge of the glass 55. The ring 40 is provided with a series of threaded studs I which pass through registering apertures in the frame plate 26, the protruding ends of which are provided with nuts 42 which bear against the inner-side of the frame plate 28 and thereby hold the ring l0 and glass 39 snugly in'position.

In the embodiment of the invention illustrated, the time-clock mechanism is shown as being actuated by a synchronous electric motor generally designatedA which hasrecently come into popular and general use, but it is to be understood that such form of actuating mechanism is not at all necessary to the invention disclosed here n. inasmuch as any .means of actuating mechanism may be used to drive the time-clock.

In the construction illustrated. the electric motor A which drives the time mechanism comprises a rectangular c-shaped laminated field 43, the op osed ends of which embrace the reduced end 44 of a sealedcylindrical casing 45, such reduced end containing therein an armature. The casing 45 contains the usual set of reduction gears for securing the desired speed of rotat on,

i. e.. one R. P. M. of a shaft 46 which protrudes from the casing 45. The casing 45. at the end thereof opposite to the reduced end 45. is provided with a concentrically positioned annular boss 51 which surrounds the motor shaft 48 and which fits snugly in an aperture 48. formed in the frame plate 25. The boss I! holds the synchronous motor actuat ng mechanism securely in centered position with respect to the frame plate 25 and the motor unit is held in assembled relation thereon by screws 59 and 50. the shanks of which pass through the held 43 and thread into the outer ends of po Si and 52 respectively. The base ends of the posts 5| and 52 are rigidly secured by riveting to the frame plate 25 at diametrically oppositepoints with respect to the center of the frame plate 25. casin 45. and boss 41.

The shaft 46 of the synchronous motor unit extends a substantial distance beyond the annular boss 41 and the terminating end is provided with an axial bore or socket to receive and fric- 54, to the other end of which is secured a sec:

ond hand 55 which is thus driven directly by the synchronous motor shaft at a speed of one revolution per minute to rotate in a plane parallel to the clock face. 7

Closely adjacent to the boss 41,' the shaft 45 is provided with a pinion gear 55 rigidly secured thereto and which meshes with and drives a gear 51. The gear 51 is journaled on a stub shaft 55, the base end of which is riveted to the frame plate 25. The gear 51 has a pinion 55 rigidly secured concentric therewith, which meshes with and drives a gear 55, journaled concentrically with respect to the shaft 45, on an annular hub 52A of a relatively wide faced pinion gear 52, which is rigidly secured on one end of a sleeve 5| that is journaled on the shaft 45. The gear 55 frictionally drives the pinion gear 52 through a series of spring fingers 53 which are rigidly mounted at their base ends to an extended portion of the hub 52A. The outer ends of the fingers 53 press against the face of the gear to give a friction drive such as is common in time-clock mechanisms. The number of teeth of the gears and pinions comprising the gear train 55, 51, 55, and are such that a to 1 reduction is effected. between the pinion 55 and the gear 55.

The pinion gear 52, for convenience of manufacture, is made separately and pressed on to the sleeve 5|, so as to be non-rotatably supported thereon. The other end, 54 of the sleeve 5| rotatably receives the shaft 54 of the second hand 55, and terminates in spaced relation with respect to the outer end thereof. Upon the extreme end of the sleeve 54 is frictionally pressed a minute hand 55, which rotates in a plane in spaced parallel relation to the plane of rotation of the second hand 55.

The pinion gear 52 meshes with and drives a gear 55 which is journaled on the outer end of a stub shaft 51, the base of which is rigidly secured to the frame plate 25 by riveting. The gear 55 is provided with a concentrically positioned, rigidly attached pinion 58 which meshes with and drives a gear 55, the reduction being such that the gear 59 is rotated at of the speed of the pinion gear 52. The gear 55 is rigidly mounted on a hub 15 which is journaled to rotate on and concentrically with sleeve 54 and is provided with an extended tubular shank or sleeve 1| to the outer end of which is frictionally pressed an hour hand 12 which rotates in a plane in spaced parallel relation to the plane of rotation of the second and minute hands 55 and 55 respectively.

The concentrically journaled shaft 54, sleeve 54 and sleeve 1| are supported by and journaled in a bushing 1|A which is secured through an opening in the center of the frame plate 25. The outer end of the bushing is flanged over for holding the face plate 35 in position on the frame plate 25.

The gear 55 also meshes with a pinion gear 13 journaled on the outer end of a stub shaft 14 which is rigidly secured by riveting to frame plate 25. The gear 13 in turn meshes with a pinion gear 15 which is rigidly secured to a shaft 15, one end of which is reduced to form a shoulder and such reduced end 11 is journaled in an opening formed in the frame plate 25. The opposite end of the shaft 15 is also reduced as shown at 15 and passes through and is journaled in an opening formed in the frame plate 25. The

reduced end 15 also passes through an opening in the glass retaining ring 45 and protrudes therebeyond, such protruding end being provided with left hand threads to receive a knurled knob 19.

The knob 15 may be used to set the time-clock mechanism for positioning the hands of the clock to indicate a desired time, the left hand thread insuring that the timing mechanism can only be set by rotating the hands of the clock in a forward or right hand direction, such rotation being effected through slippage of the friction drive between the spring fingers 55 and the gear 55 without rotation of the gear 55, pinion 59, gear 51 and motor driving pinion 55.

Means are provided for causing the time mechanism to drive the necessary mechanism for causing the desired function to be initiated and terminated at pre-determined times and comprises a gear 55 journaled on a stub shaft 5| riveted to the frame plate 25 and which meshes with and is driven by the pinion gear 52. The gear 55 has a wide faced pinion gear 52 concentrically mounted rigidly therewith which meshes with and drives a cam gear 55 which has the same number of teeth as the hour hand gear 59. The gear 85 and pinion 82 are duplicates of the gear 55 and pinion 55, but mounted in reverse position.

The cam gear 85 is rigidly attached to the hub 54 of a split sleeve 55 which is rotatable and axialy slidable on a shaft 55. The gear 83 has a cam finger 51 struck out from thestock thereof at one side, which is adapted to ride around on the adjacent face of a concentrically mounted manual set gear 58. The gear 55 is rigidly mounted against an annular shoulder formed by reducing the end of the shaft 55, such reduced end extending beyond the opposite side of the gear 85 and being journaled in the frame plate 25. The frame plate 25 is off-set at 85 to provide a space between the gear 85 and the frame plate for receiving the cam finger 81 when it comes in registry with and drops through a segmental aperture 95 cut out of the gear 58.

Means are provided for manually settling the gear 55 by rotating it relative to the time driven cam gear 83 and comprise a train of pinions 9|, 92, and 93 shown most clearly in Fig. 4. The pinion 5|, as shown most clearly in Figs. 5 and 10, is journaled on a stub shaft 94 riveted to the frame plate 25 and is provided with a friction drag or brake in the form of a three-fingered spring 95 which bears against the face of the gear 9| and frictionally holds the set gear 55 in adjusted position. The gear 52 is journaled on a stub shaft 95 which is riveted to the frame plate 25 and the gear 93 is rigidly mounted on a shaft 91, the reduced ends of which are iournaled in the frame plates 25 and 26. The reduced end of the shaft 91 which passes through the frame plate 25, extends through an opening in the ring 45 and the terminating end thereof is threaded to receive a knurled knob ,58 which is the On set control and which bears the indicia Cooking hours, "On" and an arrow to indicate the direction the knob should be rotated.

Axial thrust on the shaft 85 toward the end thereof which is journaled in the frame plate 25, is taken through the gear 55 and said gear has an annular rib pressed out on the side adjacent to the plate 25 for providing a line contact therewith and thereby reducing friction, while at the same time holding the teeth of the gear 88 in spaced relation from the frame plate 25 so as to make good meshing engagement with the pinion gear 9| and preclude the possibility of becoming wedged between the gear 9I and the frame plate 25 upon which it is secured.

The end of the shaft 86 opposite to that upon which is mounted the set gear 88, is journaled in a bushing I00,.which in turn is journaled in the frame plate 26 with the end of the shaft 86 protruding slightly therebeyond to receive a pointer hand or finger IOI which is secured thereto by a screw I02, threaded into an axially extending interiorly threaded socket I03 provided in the end of the shaft.

The split sleeve 85 to which is rigidly secured the time driven cam gear 83, is in the form of a constantly engaged dental clutch as shown in Figs. 10, 14, 16, and 17, and inter-engages with a complementary split sleeve or dental 'clutch member I04 which is an integral portion of a hub I05. The hub I05 is axially slidable on the shaft 86 but is driven through the' constantly engaged clutch at the same rate of speed as its companion inter-engaging clutch member 85 and time driven gear 83. The hub I05 carries rigidly attached thereto a cam plate I06 from which is struck out a cam finger I01. The cam I01 is adapted to ride around on the adjacent face of a set gear I08 and enter into and pass through a segmental aperture I09 which is cut therethrough. The set gear I08 is rigidly mounted on one end of the hub I00 and the opposite end thereof extends beyond the frame plate 26 and has rigidly secured thereto a disk or dial IIO, on the face of which is appropriate numerical indicia IIOA representing equally spaced time increment units and fractions thereof.

' The dial H0 is divided into I2 main divisions or time increment units and numbered 0 to 11 in left hand consecutive order with the representation of a pointer III placed thereon, in registry with the 0 of the indicia. The pointer III is preferably in a distinctive contrasting color to the background color of the dial H0 and preferably the same color as the clock face 38. The face plate 38 of the time clock is also provided with indicia 38A representing an equal number of time increment units but numberedconsecutively in a right hand direction with the indicia, including the fractions of the units, arranged around the dial IIO, so that the pointer I II may be moved by rotation of the dial IIO to any desired position with respect to the twelve main time increments represented by the indicia or any fraction thereof.

Means are provided for setting the ear I08 at any desired position and thereby rotating the dial I I0 to the pre-determined location and comprise a train of set gears H2, H3, and H4 which intermesh with each other and with the gear I08. The pinion gear H2 is provided with a friction drag or brake spring II5 which frictionally retains the set gear I08 in an adjusted position and which is shown most clearly in Figs. 3 and 10. The pinion gear H4 is rigidly secured to a shaft N6, the reduced ends of which are journaled in the frame plates 25 and 26. The reduced end of the shaft II6 which is journaled in the frame plate 26, protrudes therebeyond, passes through rigidly riveted to the frame plate 26 as shown most clearly in Fig. 10.

Axial movement of the cam gear 83 and the hub I 84 to which it is rigidly attached, control a mechformed in the frame plate 25. The lever I20 is provided with a notch I22 which embraces opposite sides of the frame plate 25 at one end of the slot I2I and is yieldingly held insuch engaging position by a helical tension spring I23. One end of the spring I23 is hooked in a notch I24 formed in the marginal edge of the frame plate 25 and the other end thereof is hooked through an opening I25 formed in the extremity of a lever arm I26 formed integrally with the cam lever I20.

One leg of the cam lever I20 extends into the space between the cam gear 83 and cam plate I06 and is provided with an inwardly extending toe I21 which normally rides upon and is held yieldingly against a radially extending flange I28 integrally formed on the hub 84. I

The other arm of the U-shaped cam lever I20 is provided adjacent its end with a transversely extending lug I29 which is formed by bending over, at right angles, a portion of the stock from which the arm is made. The lug I29 is provided with a pin I30 upon which a pawl I3I is pivotally mounted. The pawl I3I is normally urged to rotate to the left as viewed in Fig. 13 by a spring I32 which has one or two turns around a reduced neck of the pin I30 underneath the head thereof. One arm of the spring I32 bears against the pawl I3I and the other arm is engaged in a notch formed near the end of a finger I33 which is integrally formed on the end of the cam lever arm and in continuation thereof.

The pawl I3I has an arcuate shoulder I34 formed thereon which is normally yieldingly urged by the spring I32 to bear against a function controller or actuator (Figs. '7 and 10). The actuator comprises a. body member I35 having a reduced end I36 which is axially slidable and rotatable in an opening formed in the frame plate 25 and a radially extending annular shoulder I31 integrally formed at the other end thereof. The end of the body I35 having the shoulder I31 is provided with an axially extending opening in teriorally threaded to receive the threaded end of a shaft I38 which is axially slidable and rotatable in an opening formed in a bridge member I39. parallel relation to the frame plate 25 by four legs I40, which legs terminate in apertured toes I M through which are secured screws I42 and which thread into the frame plate 25. The shaft I38 extends beyond the bridge I39 and such extended end is provided with an integrally formed hexagonal nut I43 for receiving a wrench, whereby the shaft I38 may be readily threaded into the body member I35. I

The shaft I38 also extends slightly beyond the hexagonal nut I43 in position to contact with and swing a lever arm I44 which is mounted to permit limited oscillation, on the outwardly extending end of an arm I 45 which is bent out from the stock of and transversely to the bridge member I39. The end of the arm I45 is notched in its end face to receive the base end of the lever I44 and form upstanding lugs or fingers I46 and I41 which are swadged over inwardly toward each other to loosely retain the lever arm I44. The

The bridge I39 is rigidly secured in spaced arm I44 is also notched at opposite sides as shown at I48 and I49 to receive the fingers I46 and I41 and is thus restrained from longitudinal movement.

The under side of the bridge member I39 has riveted thereto a post or stubshaft I50 upon which is pivoted a pawl I5I which is a duplicate of the pawl I3I, but mounted in reverse relation thereto. The pawl I5I is normally urged toward the function controller so as to bear against the body portion I35 or the annular shoulder I31 by a spring I52 which is wrapped around the reduced end of the post I50 underneath the head thereon. One end of the spring bears against an adjacent leg I which supports the bridge member and the other end bears against the pawl I5I. The pawl I5I is retained upon the post I by a washer I58 which is interposed between the coils of the spring I52 and the pawl and which is pressed on, so as to frictionally retain the pawl I5I on its mounting.

Means are provided for spreading the pawls It and I5I sufficiently to permit the annular shoulder I31 to pass freely therebetween and thus permit axial movement of the function controller comprising the body member I35 and threaded shank I38. This means comprises a pawl spreader I54 in the form of a plate interposed between arms I55 and I56 of the pawls I3I and I5I respectively. The pawl spreader I54 is provided with oppositely extending integrally formed trunnions I51 and I58 which are journaled in an axi ally extending socket formed in the shaft 86 and an aperture provided in the bridge I39 respectively.

Means are provided for swinging the pawl spreader on its trunnions and thus spread the pawls apart and comprise a substantially L-shaped cam lever I59 mounted in a slot I2I formed in the frame plate 25. The outer edge of one leg of the cam lever I59, substantially midway therealong, is provided with a notch I6I which embraces opposite sides of the frame plate 25 at one end of the slot I2I and serves as a fulcrum for the cam lever I59.

One leg of the cam lever I59 extends into the space between the cam gear 83 and cam plate I05, at the side thereof opposite to that occupied by the cam lever arm I20 and is provided with an outwardly extending toe I62 which normally rides upon and is yieldingly urged against a radially extending flange I63 integrally formed on the hub I85 by a helical tension spring I64. One end of the spring I54 is hooked through the apertured end of a short arm I55, integrally formed on the cam lever I59 and the other end is booked in a notch I66 formed in the frame plate 25.

The other leg of the cam lever I59 has one end of a curved link I61 pivotally secured thereto by a rivet I68. The other end of the link is reduced in size to form shoulders I69 and the reduced end I 10 passes loosely through a rectangular aperture I1I formed in the pawl spreader I54.

Means are provided for yieldingly holding the pawl spreader I54 against the shoulders I69 and comprise a helical compression spring I12 which loosely surrounds the reduced end I10 of the link I61. The last or outermost coil of the spring I12 extends through an aperture I13 formed in the reduced portion I10, closely adjacent the tip end thereof.

Means are provided for giving sidewise support or hearing to the cam lever arms I20 and I59 and comprise a flange 2I9 struck out from the materlal of the frame plate 25 in a plane substantially normal to the plane of said plate and, which carries a continuation of the rapective slots in which the cam arms are mounted.

The improved function control mechanism may be used for a variety of purposes but the specific application disclosed herein is adapted to be used in connection with means for controlling the fuel or power of domestic gas or electric ranges.

As illustrated in Figs. 7, 19, and 20, the lever arm I44, when swung outwardly, functions to close the contacts of an electric switch. The electric switch comprises a body member I15 preferably of moulded dielectric material having. a base plate I16 also of insulating material which is secured to the outer ends of a pair of supporting posts I11 and I18 by screws I19 and I80. The base ends of the supporting posts I11 and I18 are rigidly secured to the frame plate 25 by riveting. The body member I15 Is provided with a pair of threaded electric terminals I8I and I82.

The terminal I8I is in the form of a headed bolt with the head inside the body and underneath which is clamped the base end of a spring conductor arm I88, the free end of which extends lengthwise of and within the body and terminates in a contact head I64. A nut I85 is threaded on the bolt I8I on the outside of the body for securely clamping the base end of the switch arm I83.

The terminal I82 is threaded through a bushing I86 which is moulded into the body I15 and the inner end of the terminal is also provided with a contact cap I81. A nut I88 is threaded on the outer extending end of the terminal I82 for looking the terminal in adjusted position relative to the contact head I84. interposed between the tively.

The base I15 of the electric switch is slotted to receive a relatively thin bladelike lever I9I which is provided at one end with a notch I92 for embracing opposite sides of the base plate I15 at one end of the slot in which it is mounted, thus providing a fulcrum for pivoting movement of the lever. As shown most clearly in Fig. 19, the lever I9I is provided with an outwardly extending curved portion I93 in position to be contacted by the actuating lever I44. The opposite edge of the lever I9I which is within the body of the switch is also provided with an outwardly extending curved portion I94 which is positioned to contact with and move the switch arm I83, the adjustment being such that the contacts I84 and I81 are closed when the operating arm I44 is moved outwardly. It will be understood, of course, that the electric switch herein shown and described may be used to control power current directly or to control the circuit through a relay nuts I85 and I88 respecwhich in turn controls the power current to the device using the power.

Referring to Figs. 21 and 22, the actuating lever I44 is shown in conjunction with a valve I95 for controlling the flow of a fluid such as gas. The valve I95 comprises a body member in which is formed an inlet passage I96 and an outlet passage I91 communication between which is effected through a valve opening I98 which is surrounded by an annular valve seat I99. A mushroom valve 288 is mounted on one end of a valve stem 20I and is normally urged to closed position on the valve seat I99 by a helical compression spring 282, one end of which surrounds and bears against an outstanding boss or head 203 formed on the top of the valve 200 and the other end of which is received in a socket 204 formed in a closure cap 205. The cap 205 is Washers I89 and I90 are :3

threaded into the valve body and a gasket 208 is interposed therebetween for effecting a seal.

The other end of the valve stem 20I opposite to that upon which is mounted the valve 200, is axially slidable through a bushing 201 which is riveted in the valve body and protrudes therebeyond into a diaphragm chamber 208 in position to be contacted by a disk shaped flexible diaphragm 209 at a point directly opposite a ball 210. an axial bore formed in a disk shaped cap 2 which is threaded'into the valve body. The cap 211 is provided with an annular axially extended rim or flange 2I2 which bears against the peripheral edge of the flexible diaphragm 209 and clamps it against an opposed seat formed in the diaphragm chamber 208, thus providing a fluid .tight seal for preventing the leakage of fluid around the valve stem to escape from the valve body. The opening 2I3 formed in the cap 2 is of two diameters and the step therebetween is inclined to form a ball seat for the ball 2I0, a portion of which extends beyond the face of the cap 2| I in position to be contacted and actuated .by the lever arm I44.

The valve I95 for controlling the flow of fluid is mounted on posts riveted in apertures 220 and HI of frame plate 25by screws 222 and 223 respectively. a

Means are provided for manually moving the actuating lever I44 outwardly to the on position and comprise a longitudinally slidable shaft or arm, generally designated 2I5 in Fig. 7, the

details of which are described and claimed in applicant's copending application Serial #146,706

filed of even date herewith.

The actuating arm I is provided with a toe 2I6 (Fig. 8) which is adapted to engage and close the contacts of an electric switch generally designated 2I1, the circuit of which passes through a signal lamp 2I8, the details of which are described and claimed in applicants aforesaid copending application for patent.

A portion of the casing ,29 is cut away to provide an inspection opening 224 and through which access may be had for the changing of the light bulb 2I8. This opening is normally closed by' a spring plate 225 which yieldingly snaps into position. Louvres 226 are stamped out from the back of the casing to provide ventilation so that the light burning within the casing will not excessively heat the unit.

The operation of the improved time mechanism is as follows: The synchronous electric motor, through the reduction gears housed-within the sealed casing 45, rotates the shaft 40 at the-rate of 1 R. P. M. The second hand 55, which is mounted upon shaft 54, the reduced end 53 of which is frictionally engaged in the axially extending socket formed in the end of shaft 46, is rotated in the customary manner by direct drive at 1 R. P. M. The minute hand 65 which is mounted on the sleeve 64 of gear 62 is driven at a 60 to 1 reduction through the driving pinion 58, driven gear 51, pinion 58 and driven gear 60, this being a friction drive through the spring fingers 63 which bear against the gear 60 and which are rigidly mounted with respect to the hub SI.

The hour hand 12 which is mounted on the sleeve H is driven at a 12 to 1 reduction with respect to the minute hand through the medium of driving pinion 62, driven gear 66, pinion E8 and driven gear 69, which is rigidly secured to the hub 10, said hub being integrally formed with the sleeve 1|.

areas The ball 2! is loosely held in position in' Elle hands 65 and 12 of the time-clock may be manually set by rotation by the knurled knob 19 in a left hand direction and which will rotate the \shaft 16, gear 15, gear 13 and gear 06.

Rt tation of the gear iifiwill eiiect rotation of the gears 62 and 69 and thus rotate the sleeves 64 and 1| which are integrally formedtherewith,

and which carry the minute and hour hands rcindicated by the arrow thereon. Such rotation."

through the gear train H4, H3 and 2 will rotate gear I08 which is secured to the hub or bushing" I00 and to which is secured the dial IIO.

Rotation is continued until the finger III of the dial IIO points to the predetermined time as indicated by the indicia arranged around the dial on the clock face and which in Fig. 1 of the drawings is shown as indicating twelve o'clock. Rotation of the gear I08 to this position with the timing mechanism indicating 18 minutes after 9 as shown in Fig. 1 will cause the cam disk I00 to be axially spaced from the set gear I08 by reason of the cam finger I01 riding upon or against the adjacent face of the set gear I08.. The aperture or segmental opening I09 through the gear I08 is so positioned with respect to the position of the dial H0 and the indicia upon the clock face that the cam finger I01 will not enter therein until the cam disk I06 has been rotated by the time mechanism to the point where the hands of the time-clock indicate and register the same time as that set off on the dial 0 by the finger III.

Movement of the separated cam disk I06 to the position shown in Figs. 7, 10, 14, and 16, will move the cam lever I59 about its fulcrum point against the tension of spring I64 and thereby move the link I81, the end of which passes through the pawl spreader I54, to the position shown in Figs. 13, 14, 15 and 16. In this position the pawl spreader permits the spring I52 to yieldingly hold the arcuate shoulder of pawl I5I against the annular shoulder I31 of the function controller or actuator as shown most clearly in Figs. 10 and 13.

The On knob 98 is then grasped by the operator and rotated in the direction indicated by the arrow until the pointer finger I 0| indicates the number of hours it is desired to have the meal cook. This is set-off on the indicia'which is placed upon the dial H0 and in Fig. 1, is shown as being 2 hours. Rotation of the knob 98 in this manner,- through the gear train 93, 92, and ill will rotate the set gear 88 to such a position that the segmental opening will permit passing of the cam finger 81 thereinto at the time set off by the pointer IOI. Such time may be ascertained by passing the line of sight past the dial I-I0 to the indicia arranged upon the clock face and which is indicated in Fig. 1 as being 9:30. Separation of the time driven gear 83 and the set gear 88 axially from each other by reason of the cam finger '81 riding against the adjacent face of gear 88 as shown in Figs. '1 and 10, will swing the cam lever I20 on its fulcrum against the tension of spring I23 and thus carry the actuating pawl I3I toward the frame plate 25 sumciently to permit engagement of the arcuate shoulder of the pawl back of the annular shoulder I31 as illustrated in Fig. 10. It will be under- 75 stood that the pawl I3I is at all timu yieldimly urged toward the actuator or function controller so that its arcuate shoulder constantly bears thereagainst when the pawl spreader is in its central aligned position.

When the hands of the time clock are rotated by the synchronous electric motor to the time set off by the "On" knob the opening 88 in set gear 88 comes in registry with the cam flnger 81 so that said finger may enter therethrough. Axial movement of the gear 88 and hub 88 upon which it is mounted then occurs by reason of the spring I23 tending to swing the cam arm I28 in the appropriate direction to cause the toe I21 of the cam arm I28 to yieldingly bear against the annular flange I28 of thehub 88. Movement of the cam arm I28 by the spring I23 when thus permitted causes the arcuate shoulder of the are-- tuating pawl ill to move the actuator or function controller I35 outwardly with respect to the frame plate 25 as shown in Fig. 14 and when so moved will permit the spring I82 to swing the locking pawl I5I so as to bring its arcuate shoulder back of the annular shoulder I81 and thereby lock the actuator in the position shown in Figs. 14, 15, and 16.

As shown in Fig. 16, continued movement of the time mechanism will separate the set gear 88 and time driven cam gear 88 and thin retract the actuating pawl I8I but the actuator will be maintained in On position by the locking pawl I5I.

As the time mechanism continues to drive the gear 83 and through the split sleeve or dental clutches 85 and I88, rotation of the hub I88 and cam disk I88 will bring the cam finger I81 into registry with the opening I88 through set gear I88 and axial movement will take place therebetween by reason of the tension spring I88 yieldingly urging the cam lever I88 to rotate in a left hand direction about its fulcrum point as viewed in Figs. 14, 16, and 1'! of the drawings.

As shown in Fig. 17, axial movement of the cam disk I88 will permit suflicimt rotation of the cam lever I58 to cause the shoulders I88 of link I81 to swing the pawl spreader I88 on its trunnions to the position shown in Figs. 17 and 18, in which position the pawls III and III are spread apart against" the action of their respective springs suiliciently to permit free e of the annular shoulder I81 therebetwem and thus reverse or terminate the function being performed.

The pawl spreader I88 is arranged to move both of the pawls III and III for the reason that if the "Oil" time is within one or one and onehalf hours of the On time, then the cam finger 81 will not be entirely out of the opening 88 and the actuating pawl I8I will not be entirely withdrawn from the shoulder I81. In the particuhr embodiment illustrated, it takes substantially two hours ofelapsed timeforthe cam tobe entirelybiased out of the opening 88. If the OI! mechanism should be rendered effective at any time prior to this, the actuating pawl I8I would prevent complete return of the function controller I81 if the pawl spreader only released the locking pawl I8I.

Although but one specific embodiment of thh invention has been herein shown and dmcrlbed, itwillbeunderstoodthatnumerousdetailsof the construction may be altered or omitted without departing from the spirit of this invention as defined by the following claima I claim:

1. In a time clock mechanism, a rotatable sleeve, means for restraining said sleeve against axial movement, a gear secured to said sleeve, manual means for rotating said gear to a desired predetermined position, friction means for yieldingly holding said gear in selected position, a shaft coaxially journaled in said sleeve, a gear secured to said shaft, manual means for rotating said gear to a desired predetermined position, friction means for yieldingly holding said shaft gear in selected position, a pair of cam members coaxially journaled on said shaft between said sleeve and shaft gears, connections between said cam members for preventing relative rotation thereof while permitting relative axial movement therebetween, time clock actuated mechanism for rotating said cam members in unison, a cam on each of said cam members for bearing against the adjacent gear and holding said cam member and gear in axially spaced relation when in certain angular relationship, said 'gears having' openings for receiving said cams when in registry therewith and thus permit axial movement of said cam members toward their respective adjacent gears, and yielding means normally urging said cam members toward their respective adjacent Bears.

2. A structure as set forth in claim 1 including visual indicators connected to said sleeve and shaft and synchronized with the time clock mechanism for showing the times at which axial movement of said cam members will occur.

3. A structure as set forth in claim 1 including a dial secured to said rotatable sleeve and visible upon the time clock face, a 'group of indicia representing time increments placed upon the time clock face and arranged in consecutive order about said dial, a pointer on said dial for indicating a selected position with respect to the time indicia, numerical indicia placed upon said dial in consecutive order but in reverse order to said time indicia, the numbering of said numerical indicia one time increment imitofangularspacingfrcmsaiddialpointer, andafingersecuredtosaidshaftforindicating a selected position with respect to said numerical indicia, and in prolongation thereof, indicia upon the clock face.

4.Inatime clock,twopairsof coaxially iournaled members, cam means' for holdingthemembersofeachofsaidpairsinaxlly spaced relation when in certain angular positions with respect to each other, means permitting relative axial movement of the members ofeachpairtowardeachotherwhenincertain other angular relationships, manual means for rotatingonememberofeachpairofmembers of each other, time clock actuated mechanismforrotstingtheothermemberofesch pairofmqnbersinunisomyieldinglyurged lever arm bearing axially against one of each pair of members for calming axial movement thereof, an axially slidable function controller, a shoulder onsaidfunctioncontroller, aspringpawl ononeoi'said leverarmsadaptedtoengagesaid shoulder for moving said function controller upon movement of said lever arm, a spring pressed lockingpawlforengasingsaidshmildenwhm saidfunctioncontrollerismovedbysaidlever pswLandspawlspresdersctuatedbysaidother leversrmfordisengaging saidpawlsfromsaid function controller shoulder.

' JOHN H. GRAYSON. 

